Open AccessVol 10 No 4 Research Serum procalcitonin level and leukocyte antisedimentation rate as early predictors of respiratory dysfunction after oesophageal tumour resection Lajos Bo
Trang 1Open Access
Vol 10 No 4
Research
Serum procalcitonin level and leukocyte antisedimentation rate
as early predictors of respiratory dysfunction after oesophageal tumour resection
Lajos Bogar, Zsolt Molnar, Piroska Tarsoly, Peter Kenyeres and Sandor Marton
Department of Anaesthesiology and Intensive Care, University of Pecs, Hungary
Corresponding author: Lajos Bogar, bogar@clinics.pote.hu
Received: 1 Mar 2006 Revisions requested: 24 Apr 2006 Revisions received: 16 May 2006 Accepted: 17 Jul 2006 Published: 19 Jul 2006
Critical Care 2006, 10:R110 (doi:10.1186/cc4992)
This article is online at: http://ccforum.com/content/10/4/R110
© 2006 Bogar et al.; licensee BioMed Central Ltd
This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Abstract
Introduction Postoperative care after oesophageal tumour
resection holds a high risk of respiratory complications We
therefore aimed to determine the value of systemic inflammatory
markers in predicting arterial hypoxaemia as the earliest sign of
developing lung injury after oesophageal tumour resection
Methods In a prospective observational study, 33 consecutive
patients were observed for three days (T1–T3) after admission
(T0) to an intensive care unit following oesophageal tumour
resection The daily highest values of the heart rate, axillary
Serum C-reactive protein and procalcitonin concentrations and
the leukocyte antisedimentation rate (LAR) were determined at
T1 and T2 Respiratory function was monitored 6-hourly
measurement of the PaO2/FIO2 ratio, and the lowest value was
recorded at T3 Patients were categorised as normoxaemic or
hypoxaemic using the cutoff value of 300 mmHg for PaO2/FIO2
Results Seventeen out of 33 patients were classified as
hypoxaemic and 16 patients as normoxaemic at T3 Increases of temperature at T0 and of the procalcitonin and LAR values at T2
were predictive of hypoxaemia at T3 (P < 0.05, P < 0.01 and P
< 0.001, respectively) The area under the receiver-operating characteristic curve was 0.65 for the temperature at T0, which was significantly lower than that for the procalcitonin level at T2
(0.83; 95% confidence interval, 0.69–0.97; P < 0.01) and that for LAR at T2 (0.89; 95% confidence interval, 0.77–1.00; P <
0.001)
Conclusion These results suggest that an elevated LAR
(>15%) and an elevated procalcitonin concentration (>2.5 ng/ ml) measured on the second postoperative day can predict
oesophageal tumour resection
Introduction
Oesophageal tumour resections carry a considerable risk of
early postoperative complications The consequent inhospital
mortality rate can be as high as 10–15% [1] Atelectasis
for-mation has been identified as a leading cause of early
second-ary morbidity after oesophagectomy [2] The preceding clinical
signs that can be linked to the atelectasis formation and
con-sequent arterial hypoxaemia, however, have not been studied
after oesophagectomy
Our group previously observed that procalcitonin (PCT) as a
marker of the severity of bacterial infections failed to predict
postoperative inflammatory complications after major
opera-tions [3] On the contrary, Brunkhorst and colleagues found PCT a reliable marker in discrimination of infectious and non-infectious causes of early acute respiratory distress syndrome [4] The link between a surgical insult and the subsequent lung injury seems obvious and lies among the inflammatory proc-esses mediated by the interaction of neutrophil leukocytes, endothelial cells and epithelial cells of the lung
We previously reported a leukocyte function test measuring the number of upward floating (that is to say, antisedimenting) leukocytes in a sedimentation tube during one hour of gravity sedimentation [5] The leukocyte antisedimentation rate (LAR) indicates the percentage of leukocytes crossing the middle
CI = confidence interval; CRP = C-reactive protein; ICU = intensive care unit; LAR = leukocyte antisedimentation rate; MODS = multiple organ dys-function scores; PaCO2 = arterial carbon dioxide pressure; PaO2/FIO2 = arterial oxygen tension per fractional inspired oxygen concentration; PCT = procalcitonin; ROC = receiver-operating characteristic; SIRS = systemic inflammatory reaction syndrome.
Trang 2line of the blood column upwards during 1 hour of
sedimenta-tion It has been proven that an elevated LAR is in positive
cor-relation with enhanced leukocyte adherence [6], with an
increased cell volume and higher vacuole content of neutrophil
leukocytes [7], and with the severity of systemic inflammatory
reaction syndrome (SIRS) in critically ill patients [5]
The aim of this study was to investigate whether conventional
and newly developed inflammatory markers (SIRS
compo-nents, C-reactive protein (CRP), PCT and LAR) measured on
the first and second postoperative days of oesophageal
tumour resections could predict third-day arterial hypoxaemia
as the earliest sign of evolving respiratory dysfunction The
study intended to test inflammatory markers that have been
taken up by the intensive care practice and a relatively new
tool that is easy to use (LAR)
Materials and methods
Following local ethics committee approval, informed consent
was obtained from 33 consecutive patients (Table 1) who
entered our prospective observational study after admission to
our eight-bed teaching hospital intensive care unit (ICU)
fol-lowing elective oesophageal tumour resection All operations were performed by the same two surgeons via a transthoracic
or transhiatal approach as appropriate Intraoperative heat loss was reduced using forced-air heating blankets applied on skin surfaces of the patient not involved in the surgical explo-ration All patients were admitted to the ICU awake with spon-taneous breathing after extubation Single-shot surgical antibiotic prophylaxis was administered in all patients Postop-erative analgesia was provided via thoracic epidural canula for all of our patients, and the level of pain sensation was kept below three on the visual analogue scale in the entire observa-tional period The axillary temperature was measured four-hourly after admission to the ICU (T0) and on the first and sec-ond postoperative days (T1 and T2, respectively) The heart
respectively, and the daily highest and lowest values, respec-tively, were recorded The patients' clinical progress was mon-itored by daily multiple organ dysfunction scores (MODS) [8] The lowest PaO2/FIO2 ratio value was taken on postoperative day three (T3) A chest X-ray scan was taken on the first post-operative day and later when developing intrapulmonary
infil-Table 1
Patient characteristics and postoperative inflammatory markers
T3 PaO2/FIO2 ratio <300 mmHg T3 PaO2/FIO2 ratio ≥ 300 mmHg
Transhiatal oesophagus resection/
transthoracic oesophagus resection (n)
Temperature (°C) 37.2 (37.0–37.5) 37.5 (36.7–37.8) 37.0 (37.0–37.3) 37.0 (36.8–37.1)
Leukocyte antisedimentation rate (%) 4.9 (3.2–7.9) 19.2 (13.6–28.0) 9.2 (5.6–13.8) 9.7 (2.5–11.4)*** ICU, intensive care unit Groups were compared by Fisher's exact test and the Mann–Whitney test as appropriate Median (quartiles) and statistical differences were calculated between PaO2/FIO2 ratio values at corresponding time points *P < 0.05, **P < 0.01, ***P < 0.001.
Trang 3trates were suspected by considering the axillary temperature,
chest auscultation and arterial blood gas analysis results
The peripheral leukocyte count was measured eight-hourly at
T1 and T2 and the highest values were recorded There were
no conflicting high and low values of the leukocyte count (<4.0
or >12.0 × 103/µl) and the axillary temperature (<36.0 or
>38.0°C) in the same patient on the same day Five millilitres
of arterial blood samples were drawn for measuring PCT and
CRP levels into serum separator tubes at T1 and T2 Samples
were immediately centrifuged, and sera were separated and
stored at -70°C The PCT concentration was measured by
immunoluminometric assay (LUMItest, normal range <0.5 ng/
ml; Brahms Diagnostika, Berlin, Germany) The CRP level was
determined by nephelometric assay (normal range <10 mg/l;
Orion Diagnostics, Helsinki, Finland)
The LAR was measured by leukocyte counting in the upper
half and in the lower half of the sedimentation blood column
after one-hour gravity sedimentation of the whole blood at T1
and T2 [5] The formula LAR = 100 × (upper - lower)/(upper
+ lower) was then used to calculate the percentage of
leuko-cytes that crossed the middle line of the sedimentation blood
column upwards during 1 hour of sedimentation (normal range
<10%) The interassay coefficient of variation for the CRP,
PCT and LAR measurements was <5%
Statistical analysis
Patients were categorised as normoxaemic or hypoxaemic
according to the lowest value of the PaO2/FIO2 ratio measured
at T3 being greater than or smaller than 300 mmHg Results
are demonstrated as medians and interquartile ranges Mann–
Whitney and Fisher's exact tests were performed to assess
the differences between normoxaemic or hypoxaemic patient
subgroups A Bonferroni correction was calculated for each group of comparisons The number of patients required was calculated by power analysis according to LAR results from our previous study, performed on a similar population, in which
a LAR greater by 15% (standard deviation 9%) showed a 91% sensitivity of predicting blood culture positivity [9] With type I
α = 5% and with type II (power) of 90%, we therefore needed
32 patients The receiver-operating characteristic (ROC) curves and the areas under the respective curve were calcu-lated The values of SIRS components, CRP and PCT levels and the LAR measured at T1 and T2 were used to calculate the ROC curves Statistics were performed using the Statisti-cal Program for Social Sciences (SPSS® version 10.0) soft-ware for Windows (SPSS, Chicago, Ill., USA)
Results
There were no significant differences between the hypoxaemic
group (n = 17) and the normoxaemic group (n = 16) regarding
age, gender ratio, surgical approach of oesophageal resection and operation time Hypoxaemic patients, however, stayed sig-nificantly longer in the ICU and had a higher ICU mortality rate
than normoxaemic patients (P < 0.001 and P < 0.05,
respec-tively; Table 1) Temperatures taken at T0 were significantly higher in hypoxaemic patients compared with normoxaemic
patients (P < 0.05) The temperature, heart rate, PaCO2, leu-kocyte count, serum concentration of CRP, PaO2/FIO2 ratio and MODS score at T1 and T2 were not different between patient subgroups The PCT level and LAR showed no statis-tical differences at T1, but at T2 both values were significantly elevated in the hypoxaemic group compared with the
normox-aemic group (P < 0.01 and P < 0.001, respectively; Table 1).
Intrapulmonary infiltrates were undetectable by chest X-ray scans in any of the patients Similarly, no other sites of infec-tion could be detected in the observainfec-tion period of three days
Table 2
Predictive values of the procalcitonin serum level and the leukocyte antisedimentation rate assessment at T2 for the four cutoff values that separate the five quintiles of parameter distribution
Cutoff value Cases below the
cutoff value (n)
Sensitivity (%) Specificity (%) Positive predictive
value (%)
Negative predictive value (%)
Positive likelihood ratio
Negative likelihood ratio Procalcitonin (ng/ml)
Leukocyte antisedimentation rate (%)
Trang 4Further statistical analysis of these significant differences
pro-vided an area under the ROC curve of 0.65 (95% confidence
interval (CI), 0.47–0.82) for the temperature at T0 This was
significantly lower than that for the PCT level at T2 (0.85; 95%
CI, 0.71–0.99; P < 0.01) and the LAR at T2 (0.89; 95% CI,
0.77–1.00; P < 0.001) The sensitivity, specificity, positive
and negative predictive values, and likelihood ratios of LAR
results at T2 indicate that 15% provides the best
discrimina-tion between the hypoxaemic and normoxaemic endpoints at
T3 (Table 2)
Discussion
This recent study demonstrates that an elevated LAR (>15%)
and an elevated PCT level (>2.5 ng/ml) measured on the
sec-ond postoperative day can predict next-day arterial
hypoxae-mia as one of the early signs of threatening respiratory
complication after oesophageal tumour resection The area
under ROC curve that used the day two PCT concentration to
detect next-day decay of oxygen uptake was 0.85 (95% CI,
0.71–0.99) This was a significantly smaller area under the
ROC curve value (P < 0.05) than for the LAR measured at the
same time point (0.89; 95% CI, 0.77–1.00) Our results
sug-gest that LAR >15% can be a valuable marker of early
postop-erative respiratory insufficiency after oesophageal tumour
resection On the other hand, when focusing on day three
res-piratory insufficiency, the predictive values of the SIRS
compo-nents, the CRP concentration, the PaO2/FIO2 ratio and the
MODS score were poor
A number of recent publications have reported an acceptable
predicting power of the PCT level for the severity of infectious
complications in different cohorts of intensive care patients
[10-13] Our present observation is different to these previous
ones, however, because we investigated the signs that
pre-cede the conventional signs of infection, severe sepsis, septic
shock or MODS Our endpoint was the commencement of
respiratory insufficiency marked by the lowest PaO2/FIO2 ratio
(cutoff point, 300 mmHg) on day three The relevance of
dis-tinguishing these hypoxaemic and normoxaemic subgroups
was proven by the significantly different ICU mortality rates
Our results underline the importance of preliminary
complica-tions such as a deteriorating PaO2/FIO2 ratio because it can
progress into more severe patient conditions The main
mes-sage of this recent observation is that the detection of
increas-ing PCT and LAR values, even without signs of infection, can
be regarded as a hint at forthcoming respiratory insufficiency
and, later on, other complications
Regarding the first three postoperative days, Ranieri and
col-leagues found that noninfectious ventilatory damage of the
lungs is associated with increased intrapulmonary
sequestra-tion of neutrophils [14] This process can be one of the
conse-quences of leukocyte activation by circulating, soluble
inflammatory mediators We have proven that activated
leuko-cytes exert increased cellular volume due to water uptake, resulting in a higher rate of antisedimentating leukocytes [7] Mild intraoperative hypothermia is associated with a threefold increase in morbid myocardial events, increasing the risk of wound infection and blood loss [15] Although we made every effort to prevent intraoperative heat loss, some of our patients
(n = 9) recovered from surgery in slight hypothermia (T0 <
36.5°C) that was due to extensive surgical exploration result-ing in decreased skin surfaces for warmresult-ing blankets It is sur-prising to note that the subgroups of our patients with the lowest axillary temperature at T0 presented the highest PaO2/ FIO2 ratio at T3 This can be explained by the previous animal experiments stating that a subnormal core temperature can be protective against lung injury [15,16]
No intrapulmonary bilateral infiltrates were detected by chest radiography and physical examinations during this time Nine hypoxaemic patients' respiratory insufficiency progressed after T2 and T3, however These nine patients required mechanical ventilation, and eventually five of them died in the ICU due to bronchopneumonia, septic shock and multiple organ failure
Limitations of the present study are the short observation period, the possible inaccuracy of taking the axillary tempera-ture, the relatively small sample size and the lack of monitoring
of other soluble inflammatory mediators The true septic con-sequences would have been detected by recording further progression of patients' inflammatory reactions
Conclusion
Components of SIRS and the serum concentration of CRP fail
to predict threatening diminishment of the PaO2/FIO2 ratio An elevated PCT level and, especially, an elevated LAR indicate forthcoming arterial hypoxaemia in the early postoperative period of oesophageal tumour resections
Key messages
• Two days after oesophageal tumour resection, elevation
of the serum PCT concentration can predict next-day diminishment of the PaO2/FIO2 ratio
15% was also predictive in respect of third-day respira-tory insufficiency
• Patients with a PaO2/FIO2 ratio less than 300 mmHg at T3 had a higher axillary temperature on admission than patients with a PaO2/FIO2 ratio of 300 mmHg or higher
response syndrome measured at T1 and T2 failed to predict a diminished PaO2/FIO2 ratio at T3
Trang 5Competing interests
The authors declare that they have no competing interests
Authors' contributions
LB and ZM developed the study design and coordinated the
manuscript preparation PT performed data collection and
manuscript preparation PK contributed to the study design
and manuscript preparation SM was responsible for data
col-lection and carried out the statistical analysis All authors read
and approved the final manuscript
Acknowledgements
The study was supported by the normative departmental research
financing provided by the University of Pecs.
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